Your search keyword '"Di Trapani, F"' showing total 5 results

1. High-strain rate compressive behavior of concrete with two different substituted recycled plastic aggregates: Experimental characterization and probabilistic modeling

Author

Beibei Xiong, Devid Falliano, Luciana Restuccia, Fabio Di Trapani, Cristoforo Demartino, Giuseppe Carlo Marano, Xiong, B., Falliano, D., Restuccia, L., Di Trapani, F., Demartino, C., and Marano, G. C.

Subjects

High-strain rate compressive behavior, Mechanical properties, Micro-scale characterization, Recycled plastic, SHPB, Two substituted plastic aggregate, General Materials Science, Building and Construction, Mechanical propertie, Civil and Structural Engineering

Abstract

This paper presents a pilot study on the characterization of the high-strain rate compressive behavior of a novel concrete with two different substituted recycled plastic aggregates. A reference mix with an average compressive strength of about 55MPa is considered. Recycled PolyEthylene Terephthalate (PET) powder and recycled mixed plastic (composed of PolyPropylene (PP) and PolyEthylene (PE)) granules were adopted to substitute fine and coarse aggregates. Two different substitution strategies are employed. In the first one, the PET powder is used to substitute the fine sand by volume. In the second one, the PET powder is used to substitute the fine sand while the recycled mixed plastic granules are used to substitute the coarse sand and fine coarse aggregates by volume (50% for PET powder and 50% for recycled mixed plastic granules). Four total replacement levels (5%, 10%, 20%, and 30%) by volume were considered. The fresh concrete properties (slump and density) and quasi-static compressive behavior, are investigated. The micro-scale characterization of the material using SEM scans provided a complete understanding of the observed macro-scale behavior. Tests were performed using conventional quasi-static loading with a compressive testing machine and high-strain rate tests with a Φ80-mm Split-Hopkinson Pressure Bar (SHPB) for strain rates up to 200s−1. The dynamic tests revealed the marked strain rate dependency, although specimens with large plastic volume substitution were more sensitive to the strain rate effect. A probabilistic data-driven model for the Dynamic Increase Factor (D I F) is also proposed based on the test data. Ultimately, this study indicates that the proposed material has a good high-strain rate compressive behavior and can be a promising material to be employed for protective techniques against impact and blast loads.

Published

2023

2. Incremental dynamic based fragility assessment of reinforced concrete structures: Stationary vs. non-stationary artificial ground motions

Author

Fabio Di Trapani, Giuseppe Muscolino, Liborio Cavaleri, Francesco Basone, Basone, F., Cavaleri, L., Di Trapani, F., and Muscolino, G.

Subjects

Engineering, Peak ground acceleration, Incremental dynamic analysi, 0211 other engineering and technologies, Soil Science, 020101 civil engineering, 02 engineering and technology, Incremental dynamic analysis, Spectral acceleration, Incremental Dynamic Analysis, 0201 civil engineering, Fragility, Seismic assessment, Reinforced concrete structures, Nonlinear dynamic analysi, Non-stationary random processe, Nonlinear dynamic analysis, Civil and Structural Engineering, Reinforced concrete structure, Fragility curves, 021110 strategic, defence & security studies, business.industry, Artificial accelerograms, Non-stationary random processes, Structural engineering, Geotechnical Engineering and Engineering Geology, Reinforced concrete, Artificial accelerograms, Non-stationary random processes, Nonlinear dynamic analysis, Incremental dynamic analysis, Fragility curves, Reinforced concrete structures, Nonlinear system, Time history, Artificial accelerogram, Fragility curve, business

Abstract

Artificial and natural records are commonly employed by researches and practitioners to perform refined seismic assessments of structures. The techniques for the generation of artificial records and their effectiveness in producing signals which are significantly representative of real earthquakes are still debated as well as results of the consequent seismic assessment to expect from their application. The paper presents an in-depth comparative study highlighting the effect of employing different typologies of artificial ground motion records on seismic assessment results, especially addressing seismic fragility curves. Three sets of 50 stationary, nonstationary evenly modulated and fully nonstationary accelerograms are generated based on design spectrum compatibility criteria. Standard nonlinear time history analyses of 4 reference structural models of reinforced concrete (RC) structures having different degree of complexity are firstly carried out monitoring results in terms significant engineering seismic demand parameters. So far, incremental dynamic analysis (IDA) is used to derive fragility curves. Peak ground acceleration and spectral acceleration are used as possible intensity measures in order to compare results of seismic fragility assessment. The combination of structural irregularity, severe damage and input typology is finally analyzed and discussed in order to assess the degree of dependence of fragility assessments on the typology of signal adopted.

Published

2017

3. Cyclic response of masonry infilled RC frames: Experimental results and simplified modeling

Author

Liborio Cavaleri, Fabio Di Trapani, CAVALERI, L, and DI TRAPANI, F.

Subjects

Multilinear map, Engineering, Infilled frames, Masonry infills, business.industry, Cyclic behavior, Pivot hysteretic model, Equivalent strut, Diagonal, Soil Science, Stiffness, Structural engineering, Infilled frames, Masonry infills, Cyclic behavior, Pivot hysteretic model, Equivalent strut, Masonry, Geotechnical Engineering and Engineering Geology, Finite element method, Seismic analysis, Settore ICAR/09 - Tecnica Delle Costruzioni, Nonlinear system, medicine, medicine.symptom, business, Ductility, Civil and Structural Engineering

Abstract

The recent large interest in nonlinear seismic analysis methods, static and dynamic, has required proper strategies of modeling based on reliable, and at the same time easy to use, constitutive laws for the structural elements. Regarding the behavior of framed structures, special attention has to be devoted to infills because of the key role they play in modifying overall stiffness, strength and ductility under seismic excitation. Pointing out the attention on this topic the paper discusses a criteria for modeling the structural behavior of infills based on a macromodeling approach, that is to say on the substitution of infills with diagonal pin jointed struts. Is here shown how multilinear plastic link elements governed by a hysteretic Pivot model, available in different FEM codes, can be appropriately used to model the equivalent struts to perform linear or nonlinear analyses. In order to enlarge experimental knowledge on cyclic behavior of infilled frames structures and as reference for developing the above mentioned modeling strategy, an experimental campaign on single-storey, single-bay, fully infilled frames with different kinds of masonry and subjected to lateral cyclical loads, was carried out, and some others available in the literature are referred to. Validation of Pivot modeling approach was carried out comparing experimental results and computer simulations of the experimental tests. In the paper hysteresis parameters values calibrating Pivot law are also given for involved masonry infills typologies and some proposals for correlation between strength and stiffness of infilled frames and of masonry infills are provided as a tool for the quick calibration of the Pivot model in practical applications.

Published

2014

4. Coralline barrens and benthic mega-invertebrates: An intimate connection.

Author

Agnetta D, Bonaviri C, Badalamenti F, Di Trapani F, and Gianguzza P

Subjects

Animals, Coral Reefs, Biomass, Food Chain, Environmental Monitoring, Biodiversity, Invertebrates physiology, Ecosystem

Abstract

Despite considerable progress in understanding the transition from algal forests to coralline barrens, knowledge of coralline barren ecosystems in terms of community composition and functioning is still sparse and important gaps remain to be filled. Using a barren/forest patch system, we tested the hypothesis that the presence of coralline barren enhances the abundance and diversity of benthic mega-invertebrates. We also analysed trophic functional diversity through isotopic analyses of δ 13 C and δ 15 N. The distribution of benthic mega-invertebrates biomass differed markedly between coralline barren and algal forest, being more abundant and diverse in the barren state. Isotopic diversity metrics of the benthic mega-invertebrates assemblage indicated comparable trophic structure between the two states, although higher isotopic uniqueness in coralline barren was determined by sea urchins, especially A. lixula, and carnivorous starfish. We showed that in a patchy coralline barren/algal forest system, a more diversified benthic mega-invertebrates assemblage in the barren caused limited trophodynamic changes. This was possibly determined by the behaviour of some trophic groups such as filter feeders, deposit feeders and omnivores. Finally, our results evidence the close association between coralline barrens and benthic mega-invertebrates, contradicting the common view of coralline barrens as depauperate habitats with low diversity and productivity., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

5. Synergistic reduction of a native key herbivore performance by two non-indigenous invasive algae.

Author

Vega Fernández T, Badalamenti F, Bonaviri C, Di Trapani F, Gianguzza P, Noè S, and Musco L

Subjects

Animals, Mediterranean Sea, Stress, Physiological, Caulerpa physiology, Herbivory, Introduced Species, Paracentrotus physiology

Abstract

Native generalist grazers can control the populations of non-indigenous invasive algae (NIIA). Here, it was found that the simultaneous consumption of two co-occurring NIIA, Caulerpa cylindracea and C. taxifolia var. distichophylla, hinders the grazing ability of the main Mediterranean herbivorous, the native sea urchin Paracentrotus lividus. The ingestion of any of the two NIIA alone did not produce any difference in sea urchin righting time with respect to usual algal diet. In contrast, the simultaneous consumption of both NIIA, which grow intermingled in nature and are consumed by P. lividus, retarded its righting behavior. Such result reveals substantial physiological stress in the sea urchin, which resulted in reduced motility and coordination. The reported findings reveal the potential of NIIA co-occurrence to escape the supposed control exerted by the main native generalist grazer in Mediterranean sublittoral communities, which in turn can be locked in an "invaded" state., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019